Design of "1+N+N" Parachute Training Simulation System

Xianjin LI; Yu LIU; Gangqiang LI; Lili ZHANG

doi:10.1051/wujns/2026311058

Open Access

Issue		Wuhan Univ. J. Nat. Sci. Volume 31, Number 1, February 2026


Page(s)		58 - 68
DOI		https://doi.org/10.1051/wujns/2026311058
Published online		06 March 2026

Wuhan University Journal of Natural Sciences, 2026, Vol.31 No.1, 58-68

Computer Applications and Software

CLC number: TJ391.9

Design of "1+N+N" Parachute Training Simulation System

一种支持“1+N+N”模式的伞降训练模拟系统设计方法

Xianjin LI (李贤金), Yu LIU (柳玉), Gangqiang LI (李刚强) and Lili ZHANG (张莉丽)

Teaching and Research Department of Unit 91976, PLA, Guangzhou 510430, Guangdong, China (中国人民解放军91976部队，广东　广州　510430)

Received: 5 January 2025

Abstract

Aiming at the issues of poor scalability, single training modes, and missing platform foundation in current parachute training simulation systems, a method for a parachute training simulation system supporting the "1+N+N" mode is proposed by building a flexible functional structure design based on four domains and two systems architecture, which can adapt to multiple working modes such as "1+N" and "1+N(*)". This method can effectively save the cost and time of upgrading and expanding system capacity, greatly increasing the lifespan and availability of the system.

摘要

针对当前伞降训练模拟系统存在扩展性差、训练模式单一和平台底座功能缺失的问题，提出一种支持“1+N+N”模式的伞降训练模拟系统设计方法，构建了四层域、两重体系支撑的柔性化功能结构。所构建的系统支持“1+N”和“1+N(*)”多种工作模式，能够自动发现、主动适配动态接入硬件模拟器和辅助设备。该方法能够有效节约升级扩充系统容量的成本和时间，极大地增加系统的寿命及可用性。

Key words: industrial design / virtual reality / software architecture / visualization / computer simulation model

关键字 : 工业设计 / 虚拟现实 / 体系结构 / 可视化 / 计算机仿真模型

Cite this article:LI Xianjin, LIU Yu, LI Gangqiang, et al. Design of "1+N+N" Parachute Training Simulation System[J]. Wuhan Univ J of Nat Sci, 2026, 31(1): 58-68.

Biography: LI Xianjin, male, Ph. D., Engineer, research direction: military modeling and simulation, operational training system. E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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